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	1.	Natural Killer (NK) cells support pro-inflammation and contribute significantly to the deterioration of cardiac function following Acute Myocardial Infarction (AMI). MedStar authors: Epstein, Stephen E Lipinski, Michael J Luger, Dror Year: 2017 Citation: Unpublished 2017/10/03 Form of publication: Poster Presentation All authors: Epstein SE Lipinski MJ Luger D Local accession number: A2017_013 Add to cart (remove)
	2.	Bone marrow-derived mesenchymal stem cells, grown in hypoxic conditions and injected intravenously, acutely engraft into ischemic murine myocardium, with later additional engraftment via redistribution from reservoir tissues MedStar authors: Epstein, Stephen E Lipinski, Michael J Luger, D Sun, Wei Year: 2015 Citation: Unpublished 2015 Mar 9 Department: MedStar Heart and Vascular Institute Form of publication: Poster Presentation All authors: Luger D, Sun W, Lipinski M, Epstein SU3 - Local accession number: 2015_47 Add to cart (remove)
	3.	Treatment with human mesenchymal stem cells (hMSCs), grown under hypoxic conditions, changes the immunological responses following acute myocardial infarction (AMI) MedStar authors: Epstein, Stephen E Lipinski, Michael Luger, Dror Westman, Peter Year: 2016 Citation: Unpublished 2016/03/14 Form of publication: Poster Presentation All authors: Luger D, Lipinski MJ, Westman P, Epstein SE Local accession number: 2016_37 Add to cart (remove)
	4.	Liposomal NLRP3 inflammasome inhibitor suppresses in vitro and in vivo Interleukin-1 production MedStar authors: Epstein, Stephen E Lipinski, Michael Luger, Dror Waksman, Ron Westman, Peter Year: 2016 Citation: Unpublished 2016/03/14 Form of publication: Poster Presentation All authors: Lipinski MJ, Toldo S, Frias JC, Albelda T, Westman PC, Luger D, Waksman R, Abbate A, Epstein SE Local accession number: 2016_39 Add to cart (remove)
	5.	Mesenchymal stem cells exposed to chronic hypoxia preferentially home to regions of myocardial injury following intravenous injection MedStar authors: Epstein, Stephen E Hellinga, D Lipinski, Michael J Luger, D Sun, Wei Waksman, Ron Year: 2015 Citation: Unpublished 2015 Mar 9 Department: MedStar Heart and Vascular Institute Form of publication: Poster Presentation All authors: Lipinski M, Sun W, Dimastromatteo J, Luger D, Hellinga D, Sikora S, Waksman R, Glover D, Epstein SU3 - Local accession number: 2015_48 Add to cart (remove)
	6.	Topical application of mesenchyme stem-cell derived conditioned media prevents burn progression. MedStar authors: Carney, Bonnie C Chen, Jason H Epstein, Stephen E Moffatt, Lauren T Shupp, Jeffrey W Vigiola Cruz, Mariana Year: 2017 Citation: Unpublished 2017/04/05/ Department: Surgery/Burn Services Form of publication: Poster Presentation All authors: Carney BC Chen JH Epstein SE Kudinov Y Moffatt LT Shupp JW Sikora S Vigiola Cruz M Local accession number: A2017_614 Add to cart (remove)
	7.	Topical application of mesenchymal stem cell-derived conditioned media accelerates burn-related wound healing. MedStar authors: Carney, Bonnie C Chen, Jason H Epstein, Stephen E Moffatt, Lauren T Shupp, Jeffrey W Vigiola Cruz, Mariana Year: 2017 Citation: Unpublished 2017/08/27 Department: Surgery/Burn Services Form of publication: Poster Presentation All authors: Carney BC Chen JH Epstein SE Kudinov Y Moffatt LT Shupp JW Sikora S Vigiola Cruz M Local accession number: A2017_624 Add to cart (remove)

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